JP2007232243A - Indoor unit and air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an indoor unit and an air conditioner which prevents occurrence of troubles in cleaning an air filter. <P>SOLUTION: The indoor unit is provided with: a housing disposed on a ceiling; a frame body 119 having a suction portion for allowing the indoor air to flow into the housing, the air filter 31 collecting dust flowing in from the suction portion; a dust removing portion 33 for removing the dust attached to the air filter 31 and collecting the same; and a fixing portion 251 for fixing a relative position of the frame body 119 and the dust removing portion 33 when the frame body 119 is separated from the housing. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an indoor unit and an air conditioner.

Conventionally, an indoor unit of an air conditioner sucks indoor air into the interior, adjusts the temperature thereof, and then blows out the indoor air whose temperature has been adjusted again into the room. At this time, an air filter that collects dust floating in the indoor air and prevents it from entering the indoor unit is provided at the inlet of the indoor unit.
When the indoor unit is continuously operated, the collected dust is accumulated in the air filter. Then, the flow resistance of room air in the air filter increases, and there is a problem that the efficiency of the indoor unit is lowered. On the other hand, there is a risk that mold or the like may occur in the accumulated dust.
In order to solve the above problem, it is necessary to remove dust accumulated in the air filter.

However, usually, the indoor unit is often installed at a high place, and it is not easy to clean the air filter. In particular, the ceiling-embedded indoor unit and the ceiling-suspended indoor unit are close to the ceiling and have difficulty in cleaning the air filter.
Therefore, various techniques relating to cleaning of an air filter installed at a high place have been proposed (for example, see Patent Documents 1 to 3).
JP-A-9-184656 JP-A-11-226331 JP 2004-340507 A

As a method of removing dust from the air filter, a method of moving a removal portion such as a brush disposed on the lower surface of the air filter along the air filter is known. In such a case, the drive unit that moves the removal unit is often arranged in the main body of the indoor unit.
In such a configuration, a method of separating the air filter and the removal unit from the main body of the indoor unit and lowering the air filter and the removal unit to remove dust accumulated in the removal unit is conceivable.

  When the air filter and the removal unit are separated from the indoor unit, the removal unit is separated from the drive unit in the indoor unit. When disconnected from the drive unit, the removal unit can freely move along the air filter. Then, when raising and lowering the air filter and the removal unit, the position of the removal unit is shifted, and there is a possibility that troubles such as breakage of the removal unit may occur.

  The present invention has been made to solve the above-described problem, and an object of the present invention is to provide an indoor unit and an air conditioner that can prevent occurrence of trouble when cleaning an air filter.

In order to achieve the above object, the present invention provides the following means.
An indoor unit of the present invention includes a housing installed on a ceiling, a frame provided with a suction portion for allowing room air to flow into the housing, and an air filter for collecting dust flowing from the suction portion. A dust removing unit that removes and collects dust attached to the air filter; and a fixing unit that fixes a relative position between the frame and the dust removing unit when the frame is separated from the housing. Are provided.

According to the present invention, since the fixing portion is provided, it is possible to prevent a trouble from occurring when cleaning the air filter.
The fixing unit can restrict relative movement between the frame and the dust removing unit when the frame is separated from the housing. That is, while the frame body and the dust removing unit are lifted and lowered from the housing, the dust removing unit is fixed to the frame body, and the displacement of the dust removing unit is prevented. For example, when cleaning the air filter, when dropping the frame and dust removal unit from the housing, or when raising the frame and dust removal unit to the housing, the displacement of the dust removal unit is prevented, Generation | occurrence | production of damage etc. of a dust removal part is prevented.

  In the above invention, it is preferable that the fixing portion is provided with a detection portion that detects that the frame body is in contact with or separated from the housing.

According to the present invention, since the detection unit is provided in the fixing unit, it is possible to reliably fix the relative movement between the frame and the dust removing unit when the frame is separated from the housing.
Since the detection unit is provided in the fixing unit, the fixing unit can fix the relative movement between the frame and the dust removing unit when the frame is separated from the housing. Alternatively, the fixing unit can release the fixing between the frame and the dust removing unit when the frame contacts the housing.

  In the said invention, it is desirable to provide the raising / lowering part which supports the said frame body so that raising / lowering is possible from the said housing | casing.

According to the present invention, since the elevating part is provided, cleaning of the air filter and the like can be facilitated.
Since the elevating unit supports the frame and the air filter and the dust removing unit provided in the frame so as to be movable up and down, the air filter and the dust removing unit can be lowered from the housing. Therefore, the dust stored in the dust removing unit can be easily removed. Further, the operator can directly clean the air filter.

  The air conditioner of the present invention is characterized in that the indoor unit of the present invention and an outdoor unit constituting a refrigerant circuit in which a refrigerant circulates together with the indoor unit are provided.

  According to the present invention, since the indoor unit of the present invention is provided, it is possible to prevent troubles during air filter cleaning in the air conditioner.

  According to the indoor unit and the air conditioner of the present invention, since the fixed portion is provided, the relative movement between the frame and the dust removing portion can be restricted when the frame is separated from the housing. There is an effect that it is possible to prevent troubles from occurring during cleaning of the air filter.

An air conditioner according to an embodiment of the present invention will be described with reference to FIGS.
Drawing 1 is a figure explaining the whole air conditioner composition concerning this embodiment.
As shown in FIG. 1, the air conditioner 1 is configured such that the indoor unit 3 installed on the ceiling, the outdoor unit 5 installed outside, and the refrigerant between the indoor unit 3 and the outdoor unit 5. The refrigerant flow path 7 to be circulated is generally configured.
As shown in FIG. 1, the outdoor unit 5 is schematically configured from a compressor 9 that compresses a refrigerant, an outdoor heat exchanger 11 that performs heat exchange between the refrigerant and outdoor air, and an outdoor fan 13. ing.

FIG. 2 is a cross-sectional view illustrating the configuration of the indoor unit of FIG.
As shown in FIG. 2, the indoor unit 3 has a top panel 14 and a spacer 14A at the bottom, and a housing 15 embedded in the ceiling and a suction port (suction part) 17 for sucking indoor air are formed. The suction grill (frame body) 19, the indoor fan 21 that sucks and sends indoor air, and the indoor heat exchanger 23 that exchanges heat between the indoor air and the refrigerant are roughly configured.

  A fan motor 25 that drives the indoor fan 21 is disposed substantially at the center of the upper surface inside the housing 15, and an indoor heat exchanger 23 is disposed around the indoor fan 21 and the fan motor 25. Below the indoor fan 21 (downward in FIG. 2), a bell mouth 27 that arranges the flow of indoor air flowing into the indoor fan 21 is arranged, and below the bell mouth 27, a suction grill 19 is arranged. . Around the suction grille 19 provided on the top panel 14, an air outlet 29 is formed through which indoor air that has passed through the indoor heat exchanger 23 from the indoor fan 21 flows out of the housing 15.

FIG. 3 is a partial perspective view illustrating the configuration of the suction grille, the top panel, and the spacer in the indoor unit of FIG.
As shown in FIG. 3, the suction grill 19 includes an air filter 31 that removes dust and the like contained in the sucked air, and a cleaning unit (dust removal unit) 33 that cleans the air filter 31. . The air filter 31 is disposed in a substantially central region of the suction grill 19. Wires (lifting parts) 63 for raising and lowering the suction grille 19 are arranged at the four corners of the frame part which is the edge area of the suction grille 19. A spacer 14A having a predetermined thickness dimension is disposed on the top panel 14, and a drive motor 135 that generates a rotational driving force (described later) for driving the cleaning unit 33 is formed in the space formed by the spacer 14A. A reciprocating portion 137 for converting the rotational driving force into a reciprocating driving force, and an upper transmission portion 139 for transmitting the reciprocating driving force are held and arranged on a frame 141 installed on the top panel 14. Yes.

FIG. 4 is an exploded perspective view illustrating the configuration of the frame installed on the spacer and the top panel of FIG.
As shown in FIG. 4, the spacer 14 </ b> A is formed of a rectangular frame, and a frame 141 that holds the drive motor 135 and the reciprocating unit 137 is disposed in a space in the frame. The through hole formed in the center of the frame of the spacer 14A is a flow path for air flowing into the indoor unit 3, and the four through holes formed around the air flow out of the indoor unit 3. It is a flow path.
The frame 141 installed on the top panel 14 is provided with a support part 143 that supports the drive motor 135, the reciprocating part 137, and the like. The support portion 143 is a pair of opposing sides in the frame 141 and is provided at a substantially central portion. The support portion 143 is a convex member that protrudes inward from the inner peripheral surface of the frame 141, and supports the drive motor 135 and the reciprocating motion portion 137. The drive motor 135 is disposed between the frame 141 and the support portion 143, and the reciprocating portion 137 is disposed between the pair of support portions 143.
As described above, the support portion 143 may be provided on the frame 141, and the drive motor 135, the reciprocating motion portion 137, and the like may be supported by the support portion 143. The frame 141 may be directly connected without providing the support portion 143. The drive motor 135, the reciprocating part 137, etc. may be supported and is not particularly limited.

As shown in FIG. 4, the reciprocating unit 137 includes a driving shaft 145 that is rotationally driven by a driving motor 135, a worm gear 147 that is rotationally driven by the driving shaft 145, and a driving rack gear that is engaged with the worm gear 147. 149.
The drive shaft 145 is a columnar member whose cross section is formed in a polygon such as a hexagon, and is rotatably supported between the pair of support portions 143.
The worm gear 147 is rotationally driven by the drive shaft 145 and is disposed so as to be movable in the longitudinal direction of the drive shaft 145.
The drive rack gear 149 generates a driving force for the worm gear 147 to reciprocate by being engaged with the worm gear 147 that is rotationally driven. The drive rack gear 149 is fixedly disposed between the pair of support portions.

FIG. 5 is a partial perspective view illustrating a combination of the upper transmission portion and the worm gear of FIG.
The driving force transmission unit 153 includes a top plate 159 to which the reciprocating driving force is transmitted from the worm gear 147, and a side plate 161 that transmits the reciprocating driving force to the lower transmission unit 175 described later.
The top plate 159 has a through hole 163 formed in a rectangular shape. As shown in FIG. 5, the gear portion of the worm gear 147 is disposed in the through hole 163 when the upper transmission portion 139 and the reciprocating portion 137 are combined.
As shown in FIG. 4, an upper engagement portion 169 that is engaged with a lower transmission portion 175 described later is formed at the lower end portion of the side plate 161. The upper engagement portion 169 sandwiches the lower transmission portion 175, and extends upward from the side plate 161 and the upper recess portion 171 that transmits the reciprocating driving force to the lower transmission portion 175. Between the upper transmission portion 139 and the lower transmission portion 175 A pressing plate 173 that defines a relative posture is provided.

  As shown in FIG. 4, the restricting portion 155 is a member bent into a concave shape, and is attached to the driving force transmission portion 153 so that the driving rack gear 149 is disposed therein.

FIG. 6 is a partially exploded perspective view illustrating the configuration of an air filter and a cleaning unit provided on the suction grill of FIG. 3.
On the suction grille 19, as shown in FIG. 6, an air filter 31 that removes dust and the like contained in the sucked air, a cleaning unit 33 that cleans the air filter 31, and a reciprocating drive force to the cleaning unit 33. The lower transmission part 175 for transmitting is installed via a rectangular pedestal (frame body) 119.

FIG. 7 is a plan view illustrating the configuration of the pedestal of FIG.
A pedestal 119 installed on the suction grill 19 is a frame that supports the air filter 31 and the cleaning unit 33. As shown in FIG. 7, the pedestal 119 is formed with a rectangular through-hole in which the air filter 31 is disposed substantially at the center. The pedestal 119 includes a rotation rack gear 177, a guide portion 179, a guide rib 180, a pedestal side claw portion 182, and a fixing portion 251.

FIG. 8 is a cross-sectional view taken along the line AA for explaining the shape of the rotating rack gear of FIG. 9 is a cross-sectional view taken along the line B-B for explaining the combination of the base and the cleaning unit in FIG. 7.
The rotation rack gear 177 generates a rotation driving force for a rotation brush 185 described later. The guide part 179 supports the cleaning part 33. The guide part 179 and the rotation rack gear 177 are formed so as to extend along the moving side of the cleaning part 33 in a direction along opposite sides of the through hole.
The rotating rack gear 177 is a rack gear extending along the surface of the pedestal 119 as shown in FIG. 8, and is engaged with the pinion gear 193 of the rotating brush 185 described later, as shown in FIG.
As shown in FIG. 9, the guide portion 179 includes a guide portion 181 that is a convex portion that engages with a guide groove 207 of a roller 203 of a dust box 187 described later, and a support surface 183 that supports the roller 203.

10 is a cross-sectional view taken along the line C-C for explaining the shape of the guide rib in FIG. 7.
The guide ribs 180 are a pair of guide members that guide the movement of the air filter 31. As shown in FIG. 8, the guide rib 180 is formed at the edge of the pedestal 119 so as to extend along the moving direction of the cleaning unit 33. As shown in FIG. 10, the guide rib 180 includes a guide portion 180A and a restricting portion 180B. The guiding portion 180A is a rib extending along the surface of the air filter 31, and guides the movement of the air filter 31. The air filter 31 is provided with a slit (not shown), and the guide portion 180A and the slit are fitted so as to be relatively movable.
The restricting portion 180 </ b> B is a rib extending in a direction intersecting the surface of the air filter 31, and restricts the movement of the air filter 31. The restricting portion 180B is provided at the end of the guiding portion 180A, and the distance from the restricting portion 180B to the through hole of the pedestal 119 is preferably longer than the length of the cleaning portion 33 in the direction orthogonal to the longitudinal direction. This is because the cleaning unit 33 can be easily taken upward from the lower surface side of the air filter 31 by adopting such a configuration.

  The pedestal side claw portion 182 fixes the pedestal 119 and the air filter 31 by being engaged with the filter side claw portion 34. As shown in FIG. 6, the pedestal side claw portion 182 is one of the edges of the pedestal 119 that extends in the direction intersecting the moving direction of the cleaning unit 33 (the front side in FIG. 6), and penetrates the pedestal 119. It is provided on the wall surface surrounding the hole. The pedestal side claw portion 182 is a pair of members extending in a direction intersecting with the moving direction of the cleaning portion 33 having a L-shaped cross section. One long side of the pedestal side claw portion 182 is fixed to the wall surface of the pedestal 119 so as to be rotatable. A claw (not shown) that meshes with the filter side claw portion 34 is provided in the vicinity of the other long side of the pedestal side claw portion 182.

FIG. 11 is a DD cross-sectional view illustrating the configuration of the hook of FIG.
The fixing unit 251 fixes the cleaning unit 33 to the pedestal 119 when the pedestal 119 is separated from the housing 15. As shown in FIG. 7, the fixing portion 251 is provided at a substantially central portion of the edge portion of the pedestal 119 where the pedestal side claw portion 182 is provided.
As shown in FIG. 11, the fixed portion 251 includes an operating body 253, a spring 255, a casing 257, and a bottom plate 259.
The actuating body 253 fixes the cleaning unit 33 to the pedestal 119. The operating body 253 includes a hook 261, a rod (detection unit) 263, and a recess 265. The hook 261 is inserted into an insertion hole 283 described later, and fixes the cleaning unit 33 to the pedestal 119 (fixes relative movement between the cleaning unit 33 and the pedestal 119). The hook 261 is a rod-like member that extends toward the air filter 31 (upper side in FIG. 11) provided at the tip of an arm 267 that extends from the operating body 253 toward the cleaning unit 33. The end of the hook 261 on the air filter 31 side is formed in a sharp shape. The rod 263 detects contact and separation between the suction grille 19 and the casing 15 or the spacer 14A, and controls fixing or releasing of the cleaning unit 33 with respect to the pedestal 119. The rod 263 is a rod-shaped member extending toward the air filter 31 side. When the suction grille 19 is stored in the housing 15, the rod 263 comes into contact with the housing 15 or the spacer 14 </ b> A and pushes down the operating body 253. The recess 265 is a substantially annular groove in which the spring 255 is disposed. The recess 265 is formed on the lower surface (the lower surface in FIG. 11) of the operating body 253. By forming the concave portion 265 as an annular groove, the convex portion formed at the center supports the spring 255 and the posture of the spring 255 can be stabilized.
The spring 255 biases the operating body 253 toward the air filter 31 side. The spring 255 is disposed on the lower surface side (the lower side in FIG. 11) of the operating body 253 and is compressed between the operating body 253 and the bottom plate 259.
The casing 257 forms an internal space together with the bottom plate 259, and accommodates the operating body 253 and the spring 255 in the space. The casing 257 is a member formed in a substantially cylindrical shape, and a top plate 269 is provided on an end surface on the air filter 31 side (upper side in FIG. 11). An opening 271 through which the rod 263 is inserted is formed at the center of the top plate 269. A communication path 273 in which the arm 267 of the operating body 253 moves up and down is formed in a region of the casing 257 facing the cleaning unit 33.
The bottom plate 259 forms an internal space together with the casing 257, and supports the spring 255. A cylindrical portion 275 that extends upward is provided on the upper surface (the upper surface in FIG. 11) of the bottom plate 259, and a spring 255 is disposed inside the cylindrical portion 275. The spring 255 is supported by the cylindrical portion 275, and the posture of the spring 255 can be stabilized.

As shown in FIG. 6, the cleaning unit 33 includes a rotating brush 185 that removes dust and the like collected by the air filter 31, and a dust box 187 that temporarily stores dust and the like removed by the rotating brush 185. I have.
As shown in FIG. 9, the rotary brush 185 is driven to rotate and is driven along the surface of the air filter 31, and a brush unit 191 that sweeps dust collected by the air filter 31. And a pinion gear 193 that rotationally drives the rotary shaft 189.
As shown in FIG. 6, the rotation shaft 189 has pinion gears 193 at both ends thereof. The rotating shaft 189 is provided with a brush portion 191 so as to extend outward in the radial direction. In the present embodiment, the brush portions 191 are formed such that a row of four brush portions 191 extends along the central axis of the rotation shaft 189 and is arranged at equal intervals around the circumference of the rotation shaft 189. Yes.
The arrangement of the brush portions 191 may be formed so as to extend along the central axis as described above, or may be formed so as to extend spirally around the rotation shaft 189. There is no particular limitation. Also, the number of rows of the brush portions 191 may be four, more or less, and is not particularly limited.
The pinion gear 193 is engaged with the rotating rack gear 177, and the rotational brush 185 is moved along the surface of the air filter 31, thereby generating a rotational driving force for rotating the rotational shaft 189.

  As shown in FIG. 6, the dust box 187 includes a main body 197 to which a reciprocating driving force is transmitted from the lower transmission unit 175 and a storage unit 199 that temporarily stores dust and the like. The main body 197 and the storage unit 199 are configured to hold the rotary brush 185 rotatably between them.

As shown in FIG. 9, the main body 197 includes a bracket 201 that is engaged with the lower transmission portion 175, and a roller 203 that supports the main body 197 so as to reciprocate. As shown in FIG. 6, the main body 197 is formed in a frame shape with a through hole formed in the center, and as shown in FIG. 9, pinion gears 193 of the rotary brush 185 are provided at both ends in the longitudinal direction. A concave portion to be disposed is formed.
As shown in FIG. 11, the main body 197 is formed with a flange portion 281 that extends toward the fixing portion 251. The flange portion 281 is provided with an insertion hole 283 through which the hook 261 of the fixing portion 251 is inserted.

The bracket 201 is disposed so as to extend in the longitudinal direction at both ends where the concave portion is formed. The tip of the bracket 201 extends outward from the edge of the air filter 31. The distal end portion of the bracket 201 is engaged with the lower transmission portion 175 in a region outside the edge portion of the air filter 31.
The roller 203 is rotatably disposed on the outer surface of both end portions where the concave portion is formed. The roller 203 is formed in a cylindrical shape, and a guide groove 207 to be fitted with the guide portion 181 of the guide portion 179 is formed on the cylindrical surface.

As shown in FIG. 6, the lower transmission portion 175 is a member formed in a substantially rod shape, and a grip portion 209 that grips the bracket 201 of the cleaning portion 33 is provided at both ends in the longitudinal direction.
A lower engaging portion 211 that is engaged with the upper engaging portion 169 of the upper transmitting portion 139 is formed at a substantially central portion of the lower transmitting portion 175. The lower engaging portion 211 is formed so that the bar-shaped member is narrower than the other portions of the lower transmitting portion 175, and this portion is engaged with the upper recessed portion 671 of the upper engaging portion 169. As shown in FIG. 9, the grip portion 209 is formed with a lower recess 213 that engages with the cleaning portion 33 and grips the bracket 201 at the tip thereof.

Next, the effect | action in the air conditioner 1 which consists of said structure is demonstrated.
First, the effect | action at the time of the cooling operation in the air conditioner 1 is demonstrated.
As shown in FIG. 1, the refrigerant is compressed by the compressor 9 and sent out to the outdoor heat exchanger 11 in a high temperature and high pressure state. The refrigerant that has flowed into the outdoor heat exchanger 11 releases heat to the outdoor air, and is condensed and liquefied. The liquefied refrigerant is decompressed when passing through the expansion valve and flows into the indoor heat exchanger 23. The refrigerant that has flowed into the indoor heat exchanger 23 takes heat from the indoor air and evaporates and vaporizes. The vaporized refrigerant flows into the compressor 9 again and repeats the above cycle.

Next, the effect | action at the time of the heating operation in the air conditioner 1 is demonstrated.
The refrigerant is compressed by the compressor 9 and sent to the indoor heat exchanger 23. The refrigerant that has flowed into the indoor heat exchanger 23 releases heat to the indoor air, and is condensed and liquefied. The liquefied refrigerant is decompressed when passing through the expansion valve and flows into the outdoor heat exchanger 11. The refrigerant flowing into the outdoor heat exchanger 11 takes heat from the outdoor heat exchanger 11 and evaporates and vaporizes. The vaporized refrigerant flows into the compressor 9 again and repeats the above cycle.

Next, the flow of room air in the indoor unit 3 will be described.
As shown in FIG. 2, the indoor air flows into the housing 15 from the suction port 17 when the indoor fan 21 is rotated by the fan motor 25. The room air that has flowed into the housing 15 passes through the air filter 31, and dust contained in the room air is collected by the air filter 31.
The room air that has passed through the air filter 31 passes through the bell mouth 27 and is sucked into the indoor fan 21. The room air sucked into the indoor fan 21 is sent to the outside in the radial direction of the indoor fan 21 and passes through the indoor heat exchanger 23.

During the cooling operation, the room air is cooled by being deprived of heat by the refrigerant when passing through the indoor heat exchanger 23. On the other hand, during the heating operation, the indoor air is heated by receiving heat from the refrigerant when passing through the indoor heat exchanger 23.
The room air that has passed through the indoor heat exchanger 23 flows into the room from the air outlet 29.

Next, the effect | action in the cleaning of the air filter in this embodiment is demonstrated.
As described above, dust adhering to the air filter 31 due to the operation of the indoor unit 3 is removed by reciprocating the cleaning unit 33 along the surface of the air filter 31.
Specifically, as shown in FIG. 4, the rotational driving force of the drive motor 135 is transmitted to the drive shaft 145, and the worm gear 147 is rotationally driven. The worm gear 147 engaged with the driving rack gear 149 is driven to reciprocate along the driving shaft 145 by being driven to rotate. The drive direction of the worm gear 147 is controlled by the rotation direction of the drive motor 135. The reciprocating motion of the worm gear 147 is transmitted to the upper transmission portion 139, and the upper transmission portion 139 is reciprocated together with the worm gear 147.

The reciprocating motion transmitted to the upper transmission unit 139 is transmitted from the upper transmission unit 139 to the lower transmission unit 175, as shown in FIG.
The reciprocating motion transmitted to the lower transmission portion 175 is transmitted from the grip portion 209 to the bracket 201 of the cleaning portion 33 disposed on the lower surface side of the air filter 31 as shown in FIG.
The reciprocating motion transmitted to the bracket 201 is transmitted from the dust box 187 to the rotating brush 185.
The rotating brush 185 reciprocates on the lower surface side of the air filter 31 and is rotationally driven by the engagement of the pinion gear 193 and the rotating rack gear 177. By the reciprocating motion and rotation of the rotating brush 185, the brush portion 191 of the rotating brush 185 sweeps the entire surface of the air filter 31 on the air suction side and removes dust and the like collected by the air filter 31.
The dust removed by the brush part 191 is stored in the storage part 199.

  When cleaning the air filter 31 and during the operation of the indoor unit 3, the suction grille 19 is lifted upward. As shown in FIG. Is pushed down by. When the rod 263 is pushed down, the hook 261 provided on the operating body 253 is also pushed down, and the engagement between the hook 261 and the insertion hole 283 is released. Therefore, the cleaning unit 33 can freely move with respect to the base 119, and the cleaning unit 33 can clean the air filter 31.

Next, a method for removing dust and the like stored in the storage unit 199, which is a feature of the present embodiment, will be described.
When the amount of dust stored in the storage unit 199 reaches a predetermined amount, for example, a warning is issued to the user that the dust in the storage unit 199 needs to be removed from the indoor unit 3. It is done.

In order to remove the dust stored in the storage unit 199, the suction grill 19 is first suspended. As shown in FIG. 3, the wire 63 wound around the sprawl or the like by the operation of the remote controller or the like is fed out. When the wire 63 is unwound, the suction grille 19 is suspended from the housing 15 while maintaining the posture substantially horizontal. At this time, the air filter 31, the cleaning unit 33, the lower transmission unit 175, and the like disposed on the suction grill 19 are also suspended together with the suction grill 19.
At this time, the driving force transmission path from the drive motor 135 to the cleaning unit 33 is disconnected between the upper transmission unit 139 and the lower transmission unit 175. That is, as shown in FIG. 5, the lower transmission portion 175 moves down together with the air filter 31 and the like, so that the upper transmission portion 139 and the lower transmission portion 175 are disengaged. When the suction grille 19 is lowered from the top panel 14, the cleaning unit 33 is moved to one end portion (the right end portion in FIG. 3) of the air filter 31.

FIG. 12 is a partial perspective view illustrating a state in which the cleaning unit is fixed by the fixing unit.
On the other hand, when the suction grille 19 is separated from the top panel 14, as shown in FIG. 11, the operating body 253 of the fixing portion 251 pushed down by the top panel 14 or the spacer 14 </ b> A is moved upward by the biasing force of the spring 255. Pushed up. When the operating body 253 is pushed upward, the hook 261 is also pushed up and inserted through the insertion hole 283 as shown in FIG. When the hook 261 is inserted through the insertion hole 283, the cleaning unit 33 is fixed to the fixing unit 251, that is, the base 119.

FIG. 13 is a diagram illustrating a method of removing the cleaning unit from the air filter of FIG.
When the suction grille 19 is suspended, the air filter 31 is slid and moved as shown in FIG. The air filter 31 is guided by the guide portion 180A of the guide rib 180 shown in FIG. 11 and slides along the surface of the air filter 31. The air filter 31 that has been slid is contacted with the restricting portion 180 </ b> B of the guide rib 180 and the movement is restricted. As the air filter 31 moves, the cleaning unit 33 is exposed from a gap formed between the air filter 31 and the wall surface of the pedestal 119.

FIG. 14 is a diagram illustrating a method of removing the cleaning unit from the air filter of FIG. FIG. 15 is a diagram illustrating a method of removing the cleaning unit from the air filter of FIG.
And the cleaning part 33 and the lower transmission part 175 are taken out upwards from the lower surface side of the air filter 31 through the said clearance gap, as shown in FIG.
The lower transmission part 175 is removed from the removed cleaning part 33, and as shown in FIG. 15, the main body 197 and the storage part 199 of the dust box 187 are separated, and the dust stored in the storage part 199 is removed.
When the dust is removed from the storage unit 199, the cleaning unit 33 is disposed on the base 119 again. At this time, the relative position between the cleaning unit 33 and the pedestal 119 can be determined by inserting the hook 261 of the fixing unit 251 through the insertion hole 283 of the cleaning unit 33.
Thereafter, the suction grille 19 is pulled upward by following the above steps in reverse.
When the suction grille 19 is lifted upward, the rod 263 of the fixed portion 251 is pushed down by the housing 15 or the spacer 14A. When the rod 263 is pushed down, the hook 261 provided on the operating body 253 is also pushed down, and the engagement between the hook 261 and the insertion hole 283 is released. Therefore, the cleaning unit 33 can freely move with respect to the pedestal 119.

According to said structure, since the fixing | fixed part 251 is provided, trouble generation at the time of the cleaning of the air filter 31 can be prevented.
The fixing portion 251 can restrict the relative movement between the base 119 and the cleaning portion 33 when the suction grille 19 is separated from the housing 15. That is, while the suction grille 19 (the pedestal 119 and the cleaning unit 33) is moved up and down from the housing 15, the cleaning unit 33 is fixed to the pedestal 119, and the displacement of the cleaning unit 33 is prevented. For example, when cleaning the air filter 31, when the pedestal 119 and the cleaning unit 33 are lowered from the housing 15 or when the pedestal 119 and the cleaning unit 33 are raised to the housing 15, the displacement of the cleaning unit 33 is prevented. Therefore, the occurrence of damage or the like of the cleaning unit 33 is prevented.

Since the fixing portion 251 is provided with the rod 263, the relative movement between the base 119 and the cleaning portion 33 can be reliably fixed when the suction grille 19 is separated from the housing 15.
Since the rod 263 is provided in the fixing portion 251, the fixing portion 251 can fix the relative movement between the pedestal 119 and the cleaning unit 33 when the pedestal 119 is separated from the housing 15. Or the fixing | fixed part 251 can cancel | release fixation of the pedestal 119 and the cleaning part 33, when the pedestal 119 contacts the housing | casing 15 or the spacer 14A.

Since the wire 63 is provided, the air filter can be easily cleaned.
Since the wire 63 supports the pedestal 119 and the air filter 31 and the cleaning unit 33 provided on the pedestal 119 so as to be movable up and down, the air filter 31 and the cleaning unit 33 can be lowered from the housing 15. Therefore, the dust stored in the cleaning unit 33 can be easily removed. Further, the operator can clean the air filter 31 directly.

The technical scope of the present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention.
For example, in the above embodiment, the explanation has been made by applying to an air conditioner in which the indoor unit and the outdoor unit correspond one-to-one, but in addition, one unit is provided for a plurality of indoor unit units. The present invention may be applied to an air conditioner to which the outdoor unit corresponds, or an air conditioner to which a plurality of outdoor unit units correspond to a plurality of indoor unit units, and is not particularly limited.

It is a figure explaining the whole structure of the air conditioner which concerns on the 1st Embodiment of this invention. It is sectional drawing explaining the structure of the indoor unit of FIG. It is a fragmentary perspective view explaining the structure of the suction grille, top panel, and spacer in the indoor unit of FIG. It is a disassembled perspective view explaining the structure of the frame installed on the spacer and top panel of FIG. It is a fragmentary perspective view explaining the combination of the upper transmission part and worm gear of FIG. FIG. 4 is a partially exploded perspective view illustrating the configuration of an air filter and a cleaning unit provided on the suction grill of FIG. 3. It is a top view explaining the structure of the base of FIG. FIG. 8 is a cross-sectional view taken along the line AA for explaining the shape of the rotating rack gear of FIG. 7. It is a BB cross-sectional view explaining the combination of the base and cleaning part of FIG. It is CC sectional view drawing explaining the shape of the guide rib of FIG. It is DD sectional drawing explaining the structure of the hook of FIG. It is a fragmentary perspective view explaining the state where the cleaning part was fixed by the fixing part. It is a figure explaining the method of removing a cleaning part from the air filter of FIG. It is a figure explaining the method of removing a cleaning part from the air filter of FIG. It is a figure explaining the method of removing a cleaning part from the air filter of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Air conditioner 3 Indoor unit 5 Outdoor unit 15 Case 17 Suction port (suction part)
19 Suction grill (frame)
31 Air filter 33 Cleaning part (dust removal part)
63 Wire (elevating part)
119 pedestal (frame)
251 Fixed part 263 Rod (detection part)

Claims (4)

A housing installed on the ceiling;
A frame provided with a suction portion for allowing room air to flow into the housing;
An air filter for collecting dust flowing in from the suction portion;
Removing dust collected on the air filter and collecting the dust; and
A fixing unit that fixes a relative position between the frame and the dust removing unit when the frame is separated from the housing;
Is provided with an indoor unit.   The indoor unit according to claim 1, wherein the fixing unit is provided with a detection unit that detects that the frame body is in contact with or separated from the housing.   The indoor unit according to claim 1 or 2, further comprising an elevating unit that supports the frame so as to be movable up and down from the housing. The indoor unit according to any one of claims 1 to 3,
An outdoor unit that constitutes a refrigerant circuit in which the refrigerant circulates together with the indoor unit;
Is provided with an air conditioner.

Images